Publications by authors named "Shuichiro Baba"

Screening for new sake yeasts can expand the sensory diversity of sake, due to their production of metabolites that characterize sake's aroma and taste. In this study, mud from tidal flats in the Ariake Sea was screened for Saccharomyces cerevisiae strains with ethanol productivity suitable for sake brewing, and the brewing characteristics of isolated strains were evaluated. Five strains (H1-1, H1-2, H1-3, H3-1, and H3-2) classified as S.

View Article and Find Full Text PDF

Monascus purpureus have been used for making koji and other fermented foods and supplements. M. purpureus characteristically produces monacolin K (MK), a secondary metabolite that competitively inhibits cholesterol synthesis.

View Article and Find Full Text PDF

Diatoms are one of the most prominent oceanic primary producers and are now recognized to be distributed throughout the world. They maintain their population despite predators, infections, and unfavourable environmental conditions. One of the smallest diatoms, Chaetoceros tenuissimus, can coexist with infectious viruses during blooms.

View Article and Find Full Text PDF

Sake yeast is one of the important factors that characterize the aroma and taste of sake. To obtain sake yeast strains with different metabolic capabilities from other strains, breeding of a sake yeast is an effective way. In this study, sake yeast strain Y5201 was mutagenized by synchrotron light irradiation to obtain the mutant strains showing different brewing characteristics from parental strain Y5201, and comparative genome analysis between strain Y5201 and mutant strains was performed to identify mutation points and patterns induced by synchrotron light irradiation.

View Article and Find Full Text PDF

Red koji is produced from cultivating rice with Monascus strains that contain various types of fungal secondary metabolites, such as red pigments and monacolin K. Monascus strain also produces citrinin-a mycotoxin. In this study, Monascus purpureus KUPM5 isolated from the Thai fermented food, sufu, was mutagenized to reduce its citrinin production using UV irradiation, NTG treatment, and a combination of UV and NTG.

View Article and Find Full Text PDF